CN205383958U

CN205383958U - Instrument crossbeam examine utensil

Info

Publication number: CN205383958U
Application number: CN201521033686.0U
Authority: CN
Inventors: 钱炳南; 钟华山; 张同意
Original assignee: Anhui Great Chang Science And Technology Co Ltd
Current assignee: Anhui Great Chang Science And Technology Co Ltd
Priority date: 2015-12-10
Filing date: 2015-12-10
Publication date: 2016-07-13
Anticipated expiration: 2025-12-10

Abstract

The utility model discloses an instrument crossbeam examine utensil, including the bottom plate and on the bottom plate " worker " shape examine the piece, the piece is examined on the first direction on the top surface of bottom plate to two " worker " shape, and two " worker " shape is examined the interblock gap and is had and firstly examine that piece, second are examined piece, the third is examined piece, the fourth is examined piece and the 5th examine the piece, it examines the piece to set up first " U " shape in the surperficial second direction in top of bottom plate, " worker " shape examine a top have the inspection hole with first mounting panel on the mounting hole coincide, first examine piece, second examine piece, third examine a last top have the inspection hole with respectively with the second mounting panel on the mounting hole coincide, the fourth is examined piece and the 5th top of examining the piece and all is equipped with the inspection hole with the mounting hole coincide of the front end with the strutbeam, the side at the top that first " U " shape was examined piece follow the first direction also set up the inspection hole with first mounting panel and second mounting panel on the mounting hole coincide, and the first direction is perpendicular to the second direction. This instrument crossbeam examine utensil can be swift, the position of the mounting hole on the high -efficient ground instrumentation crossbeam.

Description

The cubing of instrument beam

Technical field

This utility model relates to cubing, in particular it relates to the cubing of a kind of instrument beam.

Background technology

Instrument beam is one of ingredient important in instrument, and what primarily serve is the effect other part in instrument being assembled into one, and serves the effect supporting each parts.Instrument beam is provided with multiple installing hole to install miscellaneous part, arranging of installing hole is all through meticulously calculated, so that the center of gravity of gauge internal is more stable, to make to connect between each parts more firm simultaneously, all needs to detect the position of the installing hole on instrument beam to determine whether to meet designing requirement before being typically in using instrument beam.

At present, the position of the installing hole on instrumentation crossbeam is often detected by means of survey tools such as slide gaugies, such detection method not only trivial operations, and accuracy is not high simultaneously.

Utility model content

The purpose of this utility model is to provide the cubing of a kind of instrument beam, and the cubing of this instrument beam can the position of the quickly and efficiently installing hole on instrumentation crossbeam.

To achieve these goals, this utility model provides the cubing of a kind of instrument beam, and this instrument beam includes girder and is positioned at two strutbeams of girder homonymy；One of them strutbeam is provided with the first otic placode, another strutbeam is provided with the second otic placode, and, the first otic placode and the second otic placode are oppositely arranged；The both sides of the end of girder are all outward extended with the first installing plate, and the middle part of girder is arranged at intervals with three the second installing plates, and the second installing plate and strutbeam are positioned at homonymy；First otic placode, the second otic placode, the front end of strutbeam, the first installing plate and the second installing plate are provided with installing hole；

Wherein, this cubing includes base plate and two " work " shape inspection blocks being positioned on the top of base plate, two " work " shape inspection blocks are positioned on the first direction of top surface of base plate, and are arranged at intervals with the first inspection block, the second inspection block, the 3rd inspection block, the 4th inspection block and the 5th inspection block between two " work " shape inspection blocks；The second direction of the top surface of base plate sets gradually the first " u "-shaped inspection block；" work " shape inspection block top is equipped with detection hole upward can be superimposed with the installing hole on the first installing plate, first inspection block, the second inspection block, the 3rd inspection block upper top are equipped with detection hole upward being superimposed with the installing hole on the second installing plate respectively, the top of the 4th inspection block and the 5th inspection block is equipped with detection hole upward can be superimposed with the installing hole of the front end of strutbeam, and the side at the top of the first " u "-shaped inspection block also offers detection hole in the first direction can be superimposed with the installing hole on the first installing plate and the second installing plate；First direction is perpendicular with second direction.

Preferably, the first inspection block, the second inspection block, the 4th inspection block and the 5th inspection block are inverse-T-shaped structure.

Preferably, the top surface of the first inspection block, the second inspection block, the 4th inspection block and the 5th inspection block is paralleled with horizontal plane.

Preferably, instrument beam also includes load-bearing mounting blocks, and the top of load-bearing mounting blocks and side are also provided with installing hole；Being additionally provided with the 6th inspection block and the 7th inspection block on the top surface of base plate, the 6th inspection block and the 7th is examined and is also equipped with detection hole on block can be superimposed with the detection hole on load-bearing mounting blocks.

Preferably, it is provided with cushion block and a bracer, cushion block and a bracer between the 6th inspection block and the 7th inspection block and is from bottom to top set in turn on the top surface of base plate so that the bottom of load-bearing mounting blocks can be supported.

Preferably, between two strutbeams, detection is provided with the first contiguous block, and the top surface of base plate is additionally provided with the second " u "-shaped inspection block, and the top of the second " u "-shaped inspection block offers detection hole upward can be superimposed with the installing hole on the first contiguous block.

Preferably, between two strutbeams, detection is provided with the second contiguous block, and the both sides of the 3rd inspection block are respectively arranged with the 8th inspection block, and the top of the 8th inspection block offers detection hole upward can be superimposed with the installing hole on the second contiguous block.

Preferably, the bottom of one of them of two strutbeams is provided with boss, and the top surface of base plate is additionally provided with the 9th inspection block and the tenth inspection block, and the top of the 9th inspection block offers detection hole upward can be superimposed with the installing hole on boss；Being provided with grab on the side of the other in which of two strutbeams, the top of the tenth inspection block can fit tightly with the bottom of grab.

Preferably, the end face of the tenth inspection block and/or the 3rd inspection block is inclined-plane.

Preferably, the top surface of base plate being additionally provided with locating piece, the top down depression of " work " shape inspection block forms locating slot, and the two ends of girder can be sticked in locating slot, and the bottom at the middle part of girder can contact with the tight of locating piece.

According to technique scheme, the this utility model concrete structure according to instrument beam, " work " shape is examined block, first " u "-shaped inspection block, first inspection block, second inspection block, 3rd inspection block, 4th inspection block and the 5th inspection block are installed on the top surface of base plate according to the position designed in advance, as long as so the girder of instrument beam being placed in the top of two " work " shape inspection blocks, make work " shape inspection block top on detection hole can be superimposed with the installing hole on the first installing plate, and then judge whether other installing holes on instrument beam examine block with first, first " u "-shaped inspection block, second inspection block, 3rd inspection block, the detection hole of the 4th inspection block and the 5th inspection block is superimposed；Once all of detection hole and installing hole all overlap, illustrate that instrument beam meets designing requirement；As long as any of detection hole can not overlap with installing hole, then this instrument beam is inferior goods.Certainly, in concrete detection process, it is possible to judge whether detection hole overlaps with installing hole by some instruments (such as latch), improve efficiency and the accuracy of detection further.

Other feature and advantage of the present utility model will be described in detail in detailed description of the invention part subsequently.

Accompanying drawing explanation

Accompanying drawing is used to offer and is further appreciated by of the present utility model, and constitutes a part for description, is used for explaining this utility model, but is not intended that restriction of the present utility model together with detailed description below.In the accompanying drawings:

Fig. 1 is the structural representation of a kind of preferred implementation of cubing of the instrument beam that this utility model provides；

Fig. 2 is the use state diagram of the cubing of the instrument beam in Fig. 1.

Description of reference numerals

Detailed description of the invention

Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described in detail.It should be appreciated that detailed description of the invention described herein is merely to illustrate and explains this utility model, it is not limited to this utility model.

In this utility model, when not making contrary explanation, " top, the end " etc. is included in the noun of locality in term and only represents this term orientation under normal service condition, or for being commonly called as of skilled artisan understands that, and it is not construed as the restriction to this term.

This utility model provides the cubing of a kind of instrument beam, and this instrument beam includes girder 13 and is positioned at two strutbeams 14 of girder 13 homonymy；One of them strutbeam 14 is provided with the first otic placode 16, another strutbeam 14 is provided with the second otic placode 17, and, the first otic placode 16 and the second otic placode 17 are oppositely arranged；The both sides of the end of girder 13 are all outward extended with the first installing plate 19, and the middle part of girder 13 is arranged at intervals with three the second installing plates 18, and the second installing plate 18 is positioned at homonymy with strutbeam 14；First otic placode the 16, second otic placode 17, the front end of strutbeam, the first installing plate 19 and the second installing plate 18 are provided with installing hole；

Wherein, this cubing includes base plate 12 and two " work " shape inspection blocks 1 being positioned on the top of base plate 12, two " work " shape inspection blocks 1 are positioned on the first direction of top surface of base plate 12, and are arranged at intervals with the first inspection block the 45, second inspection block the 43, the 3rd inspection block the 52, the 4th inspection block 42 and the 5th inspection block 41 between two " work " shape inspection blocks 1；The second direction of the top surface of base plate 12 sets gradually the first " u "-shaped inspection block 2；" work " shape inspection block 1 top is equipped with detection hole upward can be superimposed with the installing hole on the first installing plate 19, first inspection block 45, second is examined block the 43, the 3rd inspection block 52 upper top and is equipped with detection hole upward being superimposed with the installing hole on the second installing plate 18 respectively, the top of the 4th inspection block 42 and the 5th inspection block 41 is equipped with detection hole upward can be superimposed with the installing hole of the front end of strutbeam, and the side at the top of the first " u "-shaped inspection block 2 also offers detection hole in the first direction can be superimposed with the installing hole on the first installing plate 19 and the second installing plate 18；First direction is perpendicular with second direction.

The cubing of the above-mentioned instrument beam concrete structure according to instrument beam, " work " shape is examined block 1, first " u "-shaped inspection block 1, first inspection block 45, second inspection block 43, 3rd inspection block 52, 4th inspection block 42 and the 5th inspection block 41 are installed on the top surface of base plate according to the position designed in advance, as long as so the girder of instrument beam being placed in the top of two " work " shape inspection blocks 1, make work " shape inspection block 1 top on detection hole can be superimposed with the installing hole on the first installing plate 19, and then judge other installing holes on instrument beam whether with, first " u "-shaped inspection block 1, first inspection block 45, second inspection block 43, 3rd inspection block 52, the detection hole of the 4th inspection block 42 and the 5th inspection block 41 is superimposed；Once all of detection hole and installing hole all overlap, illustrate that instrument beam meets designing requirement；As long as any of detection hole can not overlap with installing hole, then this instrument beam is inferior goods.Certainly, in concrete detection process, it is possible to judge whether detection hole overlaps with installing hole by some instruments (such as latch), improve efficiency and the accuracy of detection further.

In this utility model, first inspection block 45, second inspection block 43, the concrete structure of the 4th inspection block 42 and the 5th inspection block 41 can select in wide scope, but in order to improve the first inspection block 45, second inspection block 43, the stability of the 4th inspection block 42 and the 5th inspection block 41, preferably, first inspection block 45, second inspection block 43, 4th inspection block 42 and the 5th inspection block 41 are inverse-T-shaped structure, so just the first inspection block 45 can be improved by the feature that the big contact area of the bottom surface of "T"-shaped structure and center of gravity are on the lower side, second inspection block 43, the stability of the 4th inspection block 42 and the 5th inspection block 41.

Simultaneously, so that the detection hole that the first inspection block 45, second is examined on block the 43, the 4th inspection block 42 and the 5th inspection block 41 can be in close contact with the installing hole on instrument beam, preferably, the top surface of first inspection block the 45, second inspection block the 43, the 4th inspection block 42 and the 5th inspection block 41 is paralleled with horizontal plane.

On the basis of the above, in order to strengthen the stability of instrument beam, it is preferable that instrument beam also includes load-bearing mounting blocks 20, the top of load-bearing mounting blocks 20 is also provided with installing hole to be connected with other meter units with side.On this basis, for the ease of the installing hole on detection load-bearing mounting blocks 20, it is highly preferred that the top surface of base plate 12 is additionally provided with the 6th inspection block 8 and the 7th inspection block 10, the 6th inspection block 8 and the 7th inspection block 10 are also equipped with detection hole can be superimposed with the detection hole on load-bearing mounting blocks 20.

Consider load-bearing mounting blocks 20 weight, in order to improve the stability of instrument beam in detection process further, preferably, it is provided with cushion block 9 and a bracer 11, cushion block 9 and a bracer 11 between 6th inspection block 8 and the 7th inspection block 10 and is from bottom to top set in turn on the top surface of base plate 12 so that the bottom of load-bearing mounting blocks 20 can be supported.

In this utility model, in order to improve the stability between two strutbeams 14, it is preferable that between two strutbeams 14, detection is provided with the first contiguous block 15.Correspondingly in order to detect the position of the installing hole on the first contiguous block 15 and the first contiguous block 15, more preferentially, being additionally provided with the second " u "-shaped inspection block 3 on the top surface of base plate 12, the top of the second " u "-shaped inspection block 3 offers detection hole upward can be superimposed with the installing hole on the first contiguous block 15.

Certainly, detecting the quantity being provided with contiguous block between two strutbeams 14 can change in wide scope, in order to improve the stability of instrument beam further, it is preferable that between two strutbeams 14, detection is provided with the second contiguous block 21.Thus, it is more preferred to, the both sides of the 3rd inspection block 52 are respectively arranged with the 8th inspection block 6, and the top of the 8th inspection block 6 offers detection hole upward can be superimposed with the installing hole on the second contiguous block 21.

In order to make full use of the structure of strutbeam 14 to improve the stability of instrument beam further, preferably, the bottom of one of them of two strutbeams 14 is provided with boss, being provided with grab on the side of the other in which of two strutbeams 14, so just available boss is further connected to obtain more excellent stability with miscellaneous part with grab.On this basis, in order to detect the position of boss and grab, it is preferable that being additionally provided with the 9th inspection block 44 and the tenth inspection block 51 on the top surface of base plate 12, the top of the 9th inspection block offers detection hole upward can be superimposed with the installing hole on boss；The top of the tenth inspection block 51 can fit tightly with the bottom of grab.

In order to improve the instrument beam firm effect in cubing, it is preferable that the end face of the tenth inspection block 51 and/or the 3rd inspection block 52 is inclined-plane.Inclined-plane is thus utilized to contact with instrument beam to support and firm instrument beam.

On the basis of the above, in order to further such that instrument beam can convenient be stably placed in cubing, preferably, the top surface of base plate 12 is additionally provided with locating piece 7, the top down depression of " work " shape inspection block 1 forms locating slot, the two ends of girder 13 can be sticked in locating slot, and the bottom at the middle part of girder 13 can contact with the tight of locating piece 7.

Preferred implementation of the present utility model is described in detail above in association with accompanying drawing; but; this utility model is not limited to the detail in above-mentioned embodiment; in technology concept of the present utility model; the technical solution of the utility model can being carried out multiple simple variant, these simple variant belong to protection domain of the present utility model.

It is further to note that, each concrete technical characteristic described in above-mentioned detailed description of the invention, in reconcilable situation, it is possible to be combined by any suitable mode, in order to avoid unnecessary repetition, various possible compound modes are no longer illustrated by this utility model separately.

Additionally, can also carry out combination in any between various different embodiment of the present utility model, as long as it is without prejudice to thought of the present utility model, it should be considered as content disclosed in the utility model equally.

Claims

1. the cubing of an instrument beam, it is characterised in that described instrument beam includes girder (13) and is positioned at two strutbeams (14) of described girder (13) homonymy；One of them described strutbeam (14) is provided with the first otic placode (16), another described strutbeam (14) is provided with the second otic placode (17), further, described first otic placode (16) and the second otic placode (17) are oppositely arranged；The both sides of the end of described girder (13) are all outward extended with the first installing plate (19), and the middle part of described girder (13) is arranged at intervals with three the second installing plates (18), and described second installing plate (18) and strutbeam (14) are positioned at homonymy；Described first otic placode (16), the second otic placode (17), the front end of strutbeam, the first installing plate (19) and the second installing plate (18) are provided with installing hole；

Wherein, described cubing includes base plate (12) and two " work " shapes inspection block (1) being positioned on the top of described base plate (12), said two " work " shape inspection block (1) is positioned on the first direction of top surface of described base plate (12), and is arranged at intervals with the first inspection block (45), the second inspection block (43), the 3rd inspection block (52), the 4th inspection block (42) and the 5th inspection block (41) between said two " work " shape inspection block (1)；The second direction of the top surface of described base plate (12) is provided with the first " u "-shaped inspection block (2)；Described " work " shape inspection block (1) top is equipped with detection hole upward can be superimposed with the installing hole on described first installing plate (19), described first inspection block (45), second inspection block (43), 3rd inspection block (52) upper top is equipped with detection hole upward being superimposed with the installing hole on described second installing plate (18) respectively, described 4th inspection block (42) is equipped with detection hole can be superimposed with the installing hole of the front end of described strutbeam upward with the 5th top examining block (41), the side at the top of described first " u "-shaped inspection block (2) also offers detection hole in the first direction can be superimposed with the installing hole on the second installing plate (18) with described first installing plate (19)；Described first direction is perpendicular with described second direction.

2. the cubing of instrument beam according to claim 1, it is characterised in that the first inspection block (45), the second inspection block (43), the 4th inspection block (42) and the 5th inspection block (41) are inverse-T-shaped structure.

3. the cubing of instrument beam according to claim 1, it is characterized in that, the top surface of described first inspection block (45), the second inspection block (43), the 4th inspection block (42) and the 5th inspection block (41) is paralleled with horizontal plane.

4. the cubing of the instrument beam according to any one in claim 1-3, it is characterised in that described instrument beam also includes load-bearing mounting blocks (20), and the top of described load-bearing mounting blocks (20) and side are also provided with installing hole；The top surface of described base plate (12) is additionally provided with the 6th inspection block (8) and the 7th inspection block (10), described 6th inspection block (8) and the 7th inspection block (10) is also equipped with detection hole can be superimposed with the detection hole on described load-bearing mounting blocks (20).

5. the cubing of instrument beam according to claim 4, it is characterized in that, it is provided with cushion block (9) and a bracer (11), described cushion block (9) and a bracer (11) between described 6th inspection block (8) and the 7th inspection block (10) and is from bottom to top set in turn on the top surface of described base plate (12) so that the bottom of described load-bearing mounting blocks (20) can be supported.

6. the cubing of instrument beam according to claim 4, it is characterized in that, between said two strutbeam (14), detection is provided with the first contiguous block (15), being additionally provided with the second " u "-shaped inspection block (3) on the top surface of described base plate (12), the top of described second " u "-shaped inspection block (3) offers detection hole upward can be superimposed with the installing hole on described first contiguous block (15).

7. the cubing of instrument beam according to claim 6, it is characterized in that, between said two strutbeam (14), detection is provided with the second contiguous block (21), the both sides of described 3rd inspection block (52) are respectively arranged with the 8th inspection block (6), and the top of described 8th inspection block (6) offers detection hole upward can be superimposed with the installing hole on described second contiguous block (21).

8. the cubing of the instrument beam according to any one in claim 5-7, it is characterized in that, the bottom of one of them of said two strutbeam (14) is provided with boss, being additionally provided with the 9th inspection block (44) and the tenth inspection block (51) on the top surface of described base plate (12), the top of described 9th inspection block offers detection hole upward can be superimposed with the installing hole on described boss；Being provided with grab on the side of the other in which of said two strutbeam (14), the top of described tenth inspection block (51) can fit tightly with the bottom of described grab.

9. the cubing of instrument beam according to claim 8, it is characterised in that the end face of described tenth inspection block (51) and/or the 3rd inspection block (52) is inclined-plane.

10. the cubing of the instrument beam according to any one in claim 5-7, it is characterized in that, the top surface of described base plate (12) is additionally provided with locating piece (7), the top down depression of described " work " shape inspection block (1) forms locating slot, the two ends of described girder (13) can be sticked in described locating slot, and the bottom at the middle part of described girder (13) can contact with the tight of described locating piece (7).